The IM2441 is IMS’s Type 6 COM Express carrier cards employ many key features that are critical for successful use in the rugged environments of defense / industrial applications. This flexible solution provides users the freedom to select a CPU that best meets their application requirements and extend their signal processing capabilities with Different available I/O Interfaces. The IM2441 is an evaluation and development platform that can be used together with any type of Rugged COM Express® module. The IM2441 provides physical interfaces and connectors for nearly all current serial standard I/Os, which can be routed from the COM Express® connectors to the carrier board. These carrier cards are ready for conduction cooling. Developers can install a CPU, carrier and expansion boards into a completely sealed enclosure. iMicro System has developed a heat dissipation approach that meets the cooling needs of all three components including Power Supply. Another vital feature is the built in DC/DC power supply. The carrier card operates from a single external 18–36V DC power source. All internal supply voltages are derived from this single external DC power source and built onto the carrier card
The Video Pattern Generator card (VPG) is video test equipment, used for emulating desired test patterns for testing functionality and evaluating performance various video processing systems. This VPG has been specifically designed in order to meet the functional and mechanical specifications of the Link Test Simulator (LTS) System designed by Aeronautical Development Establishment. The VPG card provides one input video channel for external video data coming from any PALB supporting video source. It provides two video output channels for any PAL-B supporting video sink. The output video can be selected from either the input video channel or the NAND flash memory. The NAND flash memory is used to store the desired video sequences and is programmable using the graphical user interface over the USB interface.
  This board is based on TMS320F28335, Digital Signal Controller, from TI. The main interface is BU-64843U8-E02 (TOTAL-ACE™COMPLETE MIL-STD-1553 SOLUTION) from DDC. The Details about Other interfaces and signal conditioning circuit is as given below
  1. LVDT signal Conditional for Position Feedback LVDT signal
  2. Signal Conditioning for Position Feedback and interfaced with ADC channel for Position Measurement
  3. A differential Driver is interfaced with Position Feedback can be used to drive strip chart recorder
  4. Signal Conditioning for Current Feedback (Differential signal) and interfaced with ADC channel for Position Measurement
  5. A Differential Driver is interfaced with Current Feedback can be used to drive strip chart recorder
  6. Signal Conditioning for Position Command (Differential signal) and interfaced with ADC channel for Position Measurement
  7. Total 12 channels isolated Gate Drivers are interfaced with DSC, can be used to drive MOSFET bridge
  8. 4-channels of ADC are used to monitor different Power supply Voltage levels and DC reference Voltage used on this board.
  9. The BU-64843U8-E02 is interfaced with External Memory Interface (XINTF) of DSC 10. Two nos of RS2422 channels are available to communicate with other subsystems
  Video Tracker is used to maintaining stable line of sight between aircraft and object, irrespective of relative motion among them. It accepts CCIR standard input video and generate output video annotated with input video. It finds the frame to frame displacement and generates analog error (x-y, two dimensional errors) to servo controller of for correction. In this development the challenge was to reduce the size of the PCB to the best possible. Hence the new product is referred as Mini Video Tracker (MVT). In this design the MVT is based on TMS320F28335 DSP and SPARTAN 3AN FPGA from XILINX. The block diagram of the module is as shown below.
  This system is based on TMS320F28335, Digital Signal Controller, from TI. There are two modules in this system. One is DSC (Digital Signal Controller) Module with TMS320F28335, ADC, DAC, Buffers and Bus Expansion Connectors. The Other module is called Carrier Module with Stepper Motor Drivers – 4 channels, CAN Transceivers, LVDS Transceivers, RS422 Receivers for Encoder Interface, Keypad Interface, PWM I/Os, RS323 Transceivers and TEC (Thermo Electric Cooler) Driver. The DSC Module plugged into Carrier board to get a platform for different application like Stepper Motor control application, BLDC Moto Control Application, Laser Diode Driver and additionally this board provides 5-Serial channels with RS232 Transceivers. The Below Block Diagrams shows different interfaces available with the system.
The product to be developed comprise of two modules. One is Operator controlled handheld module and another one is the flying module. Two types of operator controlled ground modules are to be developed. One is FPGA based module interfaced with Joystick and RF module and another one is USB port of PC/laptop interfaced with RF module. The Block diagram and major components of the modules are as shown below. The scope of this project is to Design and Development of the FPGA based reprogrammable platform Operator controlled Ground module and FPGA based BLDC motor Controller.
  High-speed, Serial FPDP data recorder from 512 GB to 8 TB Solid state drive with a flow rate 50 MBytes/s to 800MBytes/s Serial Front Panel Data Port (Serial FPDP) is a high-speed low latency data streaming serial communication protocol. It currently supports three distinct speeds, 1.0625 Gbit/s, 2.125 Gbit/s, 2.5 Gbit/s, 3.125 Gbit/s, 4.25 Gbit/s. Serial FPDP can operate over long distances, up to 10 kilometers (6.2 mi), using optical fiber cables. The sFPDP protocol is used for Signal intelligence, RADAR, SONAR or image processing applications. Our system is proposed for embedded systems designers who search for the best solution. This system is the best way to require a powerful quick and cost-effective way to permanently store and play captured data
  • Intel® Celeron ®, Intel Atom , Intel i7 processor
  • SDRAM and flash disk soldered onboard
  • Two Gigabit Ethernet ports on front panel
  • Two USB 2.0 ports on front panel
  • Two SATA interfaces on front panel
  • Stand-alone operation without backplane
  • Smart temperature control
  • Wide range of mezzanine and rear I/O modules
  • Operating temperature
  • 0°C to +70°C – commercial
  • -40°C to +85°C – industrial al
  • Protective coating (option)
  • Intel® i7 processor ( 2C/4C) up to 2.5 GHz ( Intel Core 2nd Gen/3rd Gen)
  • Two Gigabit on Front Panel
  • PICMG 2.16 and PICMG2.1 compliant
  • Two Display Port
  • Onboard PMC/XMC or 2.5” HDD
  • Flash disk soldered onboard
  • System and peripheral slot compliance
  • Wide range of mezzanine and rear I/O modules
  • Operating temperature
  • 0°C to +70°C – commercial
  • -40°C to +85°C – industrial al
  • Intel® Atom Processor up to 1.66 GHz
  • Up to 1 GB DDR SDRAM ECC soldered
  • Compact Flash: 16 GB
  •  2xLAN 10/100/1000 Mb/s, 3xUSB 2.0, VGA, 1xRS-232 and
  • 4xRS485/422 serial ports, 2xCAN, PS/2, 4xGPIO,
  • GLONASS/GPS aerial input, GSM aerial input, WiFi aerial input
  • Operating temperature range: –40°C to + 70°C
  • OS: FreeDOS, Windows XPe, Linux 2.6, QNX v.6.5
  • Vibration/single shocks/multiple shocks resistance: 5g/100g/50g
  • IP65
  • Installation of up to 7 PC/104+ modules